Heterostructured Fe2O3@SnO2 core-shell nanospindles for enhanced Room-temperature HCHO oxidation

被引:28
|
作者
Lv, Teng [1 ]
Peng, Chuang [1 ]
Zhu, Hua [1 ]
Xiao, Wei [1 ]
机构
[1] Wuhan Univ, Sch Resource & Environm Sci, Hubei Int Sci & Technol Cooperat Base Sustainable, Wuhan 430072, Hubei, Peoples R China
来源
APPLIED SURFACE SCIENCE | 2018年 / 457卷
关键词
Heterostructure; Room-temperature HCHO oxidation; Fe2O3; SnO2; Indoor-air purification; POROUS SNO2 MICROSPHERES; GAS-SENSING PROPERTIES; FORMALDEHYDE OXIDATION; INDOOR FORMALDEHYDE; CATALYTIC-OXIDATION; PHOTOCATALYTIC ACTIVITY; AMBIENT-TEMPERATURE; EFFICIENT REMOVAL; PT/TIO2; CATALYST; GOLD CATALYSTS;
D O I
10.1016/j.apsusc.2018.06.254
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
Heterostructures combining structural and compositional merits of individual building blocks are promising in advanced catalysis for environmental remediation. We herein report a facile construction of Fe2O3@SnO2 core-shell nanospindles via assembly of SnO2 shells over Fe2O3 cores. With loading of trace N nanoparticles, the Pt/Fe2O3@SnO2 shows enhanced room-temperature HCHO oxidation activity to the Pt/Fe2O3 and Pt/SnO2. Density Function Theory (DFT) simulations demonstrate the synergetic effects of the Fe2O3 and SnO2 in the Fe2O3@SnO2, with the Fe2O3 cores facilitating adsorption/activation of reactant O-2 and the SnO2 shells promoting desorption of reactant H2O. The present study highlights advantages of heterostructure and provides a rational design strategy for advanced catalysts.
引用
收藏
页码:83 / 92
页数:10
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